RU2694663C1 - Device for natural accumulation of cold in soil mass - Google Patents

Abstract

FIELD: cooling.SUBSTANCE: invention relates to accumulation and maintenance of natural cold stores in semi-enclosed soil mass. Device for natural accumulation of cold in soil mass, adjacent to structure with heat release, is made with canopy, limiting semi-restricted mass of soil from air, mainly above canopy, with heat insulation, limiting heat flow from environment to soil massif when ambient air temperature exceeds air temperature under canopy, and supports from material with low heat conductivity, with air supply system under canopy and air removal from under canopy, with an air distribution system under an awning, with at least one soil temperature sensor, at least one ambient air temperature sensor, at least one air temperature sensor under the canopy, with actuator actuating air supply systems under shed and removal of air from under canopy and air distribution depending on readings of temperature sensors.EFFECT: technical result consists in excluding labor costs for heat and water insulation of soil massif – accumulator of winter cold, adjacent to structure, reducing effect of daily and seasonal fluctuations of ambient air temperature on intensity of heat flow from it to soil mass.8 cl, 2 dwg

Description

Technical field

The invention relates to the field of accumulation and maintenance of stocks of natural cold in semi-limited soil mass.

The level of technology

Closest to the technical essence is a device for freezing the top layer of soil according to the USSR author's certificate for invention No. 1763571, which was published on 09.23.1992, according to IPC E02D 3/115, including overlapping with supports, preventing solar radiation and snow from reaching the surface of the ground, creates a heat insulating layer with inlet and outlet ventilation holes.

The disadvantages of the above-described device include the increased influence of daily and seasonal fluctuations of the outside air temperature on the heat exchange between it and the upper layer of soil, which, under certain conditions, leads to the inefficient use of accumulated cold stocks.

The closest in technical essence is the refrigerator-accumulator of winter cold under the RF patent for invention No. 2344251, which was published on January 20, 2009, according to IPC Е04Н 5/10, F25D 3/02, which includes an underground part buried in the ground with a natural ventilation system and ground.

The disadvantages of the above-described device include increased labor costs for thermally waterproofing an array of soil - a winter cold accumulator.

DISCLOSURE OF INVENTION

The task of the inventions is to create a winter cold accumulator in a semi-limited soil mass adjacent to the building with heat emissions by providing conditions for freezing the estimated volume of soil to the standard depth in various climatic regions with a sufficient number of days per year with Celsius negative values of air temperature and for rational use of accumulated cold stocks.

Technical results of the invention - the exclusion of labor for thermal insulation of the soil massif - accumulator of winter cold adjacent to the construction with heat generation, and reduction of the effect of daily and seasonal fluctuations of the outdoor air temperature on the intensity of heat flow from the environment to the ground mass when the outdoor temperature exceeds the ground surface temperature array.

Technical results are achieved by the fact that the device for the natural accumulation of cold in the soil mass, adjacent to the construction with heat generation, is made with a canopy limiting the semi-restricted soil mass from the air over the canopy, with thermal insulation that limits heat transfer between the environment and the soil mass when the outside air temperature is exceeded over the surface temperature of the soil massif, and supports made of a material with low thermal conductivity, with an air supply system under the canopy and removal air from under a canopy, with an air distribution system under a canopy, with at least one soil temperature sensor, one air temperature sensor under a canopy, at least one outdoor air temperature sensor, at least with an actuator actuating air supply systems under the canopy and remove air from under the canopy and air distribution depending on the readings of temperature sensors.

Technical results are also achieved by the fact that the air supply system under the canopy and the removal of air from under the canopy is natural or artificial or mixed.

Technical results are also achieved by the fact that the air supply system under the canopy and the removal of air from under the canopy is inlet or exhaust or intake and exhaust.

Technical results are also achieved by the fact that the air supply system under the canopy and the removal of air from under the canopy contains at least two-position "open-closed" valves.

The term "valve" in the claimed technical solution should be understood as devices intended for opening, closing or regulating the air flow, including versions of such devices in the form of dampers, valves, fittings and the like.

Technical results are also achieved by the fact that the air distribution system is channel or channel perforated, supports from a material with low thermal conductivity form channels and are made with the possibility of changing the aerodynamic resistance in the channels and / or perforated holes in the supports.

Technical results are also achieved by the fact that supports from a material with low thermal conductivity on the surface of the ground surface are connected to each other by rods or a sheet with perforated holes in the sheet.

Technical results are also achieved by the fact that the canopy is made equidistant or non-equidistant contour on the surface of the soil surrounding the building with heat generation.

Technical results are also achieved by the fact that the actuator actuating the air supply system under the canopy and removing the air from under the canopy and air distribution, depending on the temperature sensor readings, is designed to close the valves when the ambient air temperature exceeds the surface temperature of the semi-confined ground or air under a canopy and / or off, at least one fan, in the case of an artificial air supply system under the canopy and remove air from under the canopy, when the ambient air temperature exceeds the surface temperature of a semi-infinite soil array or the air temperature under the canopy and the possibility of opening the valves when the surface temperature of the semi-infinite soil mass or air temperature is above the canopy compared to the outdoor temperature and / or turning on the fans, in the case of an artificial system for supplying air under the canopy and removing air from under the canopy, if it is exceeded perature semibounded soil surface or array under the canopy temperature compared to the temperature of the outside air.

The implementation of the invention

The essence of the invention is illustrated by drawings.

FIG. 1 provides a top view of the device for the natural accumulation of cold in the soil mass adjacent to the building with heat.

FIG. 2 is a sectional view from the side of the device for the natural accumulation of cold in the soil mass adjacent to the building with heat generation.

The device for the natural accumulation of cold in the soil mass 1, adjacent to the building with heat generation 2, is made with a canopy 3, limiting the soil mass 1 from the air above the canopy 3 and solar radiation, with thermal insulation 4, limiting heat exchange between the environment and the soil mass 1, and supports 5 from a material with low thermal conductivity, with an air supply system 6 under a canopy 3 and air removal from under a canopy 3, with an air distribution system 7 under a canopy 3. The device also contains a surface temperature sensor and soil 8, an outdoor temperature sensor 9, an air temperature sensor 10 under a canopy 3, an actuating mechanism for activating air supply and removal systems 6 and air distribution 7 depending on the performance of temperature sensors 8, 9 and 10. Canopy side surface 3 limiting it perimeter may also have thermal insulation 4.

The system of supply and removal of air 6 can be natural or artificial or mixed.

The system of supply and removal of air 6 can be supply or exhaust or supply and exhaust.

The system of air supply and venting 6 contains valves 11 and is designed so that when a snow cover is formed in the vicinity of the structure 2, the air supply to the channels 12 and, after cooling the soil 1, the air removed from the channels 12 is unhindered due to snow cover

The air distribution system 7 can be channel or channel perforated, the supports 5 can be made of a material with low thermal conductivity and can form channels 12, the air distribution system 7 can also be made with the ability to change the aerodynamic resistance in the channels 12 and / or perforated holes 13 in the supports 5 .

Supports 5 can be made of a material with low thermal conductivity and from the surface of the soil 1 can be connected to each other by rods 14 or sheets 15 with perforated holes 16 in the sheet 15.

The canopy 3 can be made equidistant or non-equidistant contour along the surface of the soil massif of the building 2. In the case shown in FIG. 1 - the boundary of the structure 2 is made in the form of a polyhedron, and the boundary of the canopy contour 3 in the plan is in the form of a circle, and is characterized as nonequidistant.

The actuator actuating systems for supply and removal of air 6 and air distribution 7, depending on the readings of temperature sensors 8, 9 and 10, can be made with the possibility of closing valves 11 when the ambient temperature exceeds the surface temperature of the soil mass 1 or the air temperature under the canopy 3 and / or turning off the fan (s) 17, in the case of an artificial air supply and exhaust system 6, when the ambient temperature is higher than the temperature oh surface of the soil mass 1 or air temperature under the canopy 3, and the possibility of opening valves 11 when the surface temperature of the soil mass 1 or the air temperature under the canopy 3 is exceeded compared to the ambient temperature and / or turning on the fan / fans 17, in the case of artificial systems air supply under the canopy and removal of air from under the canopy, when the surface temperature of the soil mass 1 or the air temperature under the canopy 3 is exceeded in comparison with the ambient temperature zhuha.

Device for the natural accumulation of cold in the soil mass 1 works as follows.

With daily and seasonal fluctuations in ambient air temperature in the event that the surface temperature of the soil mass 1 or the air temperature under a canopy 3 exceeds the ambient temperature, the actuating mechanism for activating air supply and exhaust systems 6 and air distribution 7 opens valves 11 and, in the case of artificial air supply system under the canopy 3 and removal of air from under the canopy 3, turns on the fan (s) 17. At the same time, cold air enters the channels 12 and cools the mas soil protection 1.

With daily and seasonal fluctuations in ambient air temperature in case the ambient air temperature exceeds the ground surface temperature 1, the actuating mechanism for activating the air supply and exhaust systems 6 and air distribution 7 closes the valves 11 and, in the case of an artificial air supply system under the canopy 3 and removing air from under canopy 3, turns off the fan (s) 17. At the same time, the air in the ducts 12 and the heat insulation 4 impede the heat exchange between the environment and runtovym array 1. In the formation of the shed 3 at a snow layer, the latter also reduces heat flow from the surrounding environment to earth array 1. Furthermore, the insulation 4 prevents soil heated by solar radiation 1.

All elements of the device for the natural accumulation of cold in the soil mass can be made of known materials using known technologies.

Claims (8)

1. A device for the natural accumulation of cold in the soil mass adjacent to the heat generation facility is made with a canopy limiting the semi-restricted soil mass from the air mainly above the canopy, with thermal insulation limiting the heat flux from the environment to the soil mass when the outside air temperature exceeds temperature air under a canopy, and supports from a material with low thermal conductivity, with a system for supplying air under a canopy and removing air from under a canopy, with an air system distribution under a canopy, with at least one sensor of soil temperature, at least one sensor of outdoor air temperature, at least one sensor of air temperature under a canopy, with an actuating mechanism for activating air supply systems under a canopy and for removing air from under a canopy and air distribution depending on the readings of temperature sensors. 2. The device according to p. 1, characterized in that the air supply system under the canopy and remove air from under the canopy is natural, or artificial, or mixed. 3. The device according to p. 1, characterized in that the air supply system under the canopy and remove air from under the canopy supply, or exhaust, or supply and exhaust. 4. The device according to p. 1, characterized in that the system of air supply under the canopy and the removal of air from under the canopy contains at least two-position "open-closed" valves. 5. The device according to claim 1, characterized in that the air distribution system is channel or channel perforated, supports made of a material with low thermal conductivity form channels, and is configured to change the aerodynamic resistance in the channels and / or perforated holes in the supports. 6. The device according to claim 1, characterized in that the supports of a material with low thermal conductivity on the surface of the ground surface are connected to each other by rods or a sheet with perforated holes in the sheet. 7. The device according to claim 1, characterized in that the canopy is made equidistant or non-equidistant contour on the soil surface of the building with heat generation. 8. The device according to p. 1, characterized in that the actuator actuating the air supply system under the canopy and remove air from under the canopy and air distribution, depending on the temperature sensor readings, is designed to close the valves when the ambient temperature exceeds the surface temperature an array of semi-infinite soil or air temperature under a canopy and / or shutdown of at least one fan in the case of an artificial air supply system under the roof and removal of air from under the canopy, when the ambient air temperature is higher than the surface temperature of a semi-restricted soil mass or air temperature under a canopy and the possibility of opening the valves when the surface temperature of the semi-finite ground mass is raised or the air temperature under a canopy compared with the outside air temperature and / or turning on the fans, in the case of artificial air supply system under the canopy and removal of air from under the canopy, when the temperature rises the surface of a semi-infinite soil mass or air temperature under a canopy compared with the outdoor air temperature.

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